Atomic Force Microscopic Study of Aggregation of RecA-DNA Nucleoprotein Filaments into Left-Handed Supercoiled Bundles

Abstract

RecA and its complexes with double-stranded DNA (dsDNA) and single-stranded DNA (ssDNA) are responsible for homologous recombination and DNA repair. In this study, we have observed, by atomic force microscopy (AFM), two-filament left-handed superhelices of RecA-dsDNA filaments that further interwind into four- or six-filament bundles, in addition to previously reported left-handed bundles of three or six filaments. Also revealed are four-filament bundles formed by further interwinding of two intrafilament superhelices of individual filaments. Pitches of superhelices of RecA-DNA filaments are similar to each other regardless the number of component filaments, and those formed on Φx174 RFII dsDNA and pNEB206A dsDNA are measured as 339.3 ± 6.2 nm (690 counts of pitch/2) and 321.6 ± 11.7 nm (101 counts of pitch/2), respectively, consistent with earlier measurements made by electron microscopy with a much smaller sample size. The study of these structures provides insight into the self-interactions of RecA and RecA-like proteins, which are present in all living cells, and into the general phenomenon of bundling, which is relevant to both biological and nonbiological filaments.